Finger and palm protector for public use

ABSTRACT

A protective shield  2  for protecting the operable part of a working hand comprises multiple finger sleeves and a palm shield. The sleeves being composed of hydrophobic polymeric or other materials coated or otherwise laden with disinfecting or pharmaceutical agents for destroying disease causing virus inter alia. The hand protector being designed to be attached separately or in a sheath in a non-obtrusive position on the users body such that only the hand to be protected is required to employ the hand protector for use.

CROSS REFERENCE OF RELATED APPLICATIONS

[0001] Pursuant to 35 U.S.C. Section 119, the benefit of priority from Provisional Application 60/223,569 with filing date Aug. 7, 2000 is claimed for this Non-Provisional Application.

BACKGROUND OF THE INVENTION

[0002] 1. Technical Field

[0003] This invention relates to the protective apparatus for the hands, and more particularly, multiple sleeves coupled to a palm apron for inserting multiple digits of the grasping hand of a user. The sleeves and palm apron provide for insulation of the fingers and contiguous part of the grasping hand from contact with the operative portions of doors, door handles and surfaces of public conveniences

[0004] 2. Description of the Prior Art

[0005] The use of devices for receiving a user's fingers for a variety of purposes is known in the prior art. More specifically, sleeves, cots and puncture resistant gloves for a wide variety of purposes heretofore devised and utilized for protecting the user from infectious diseases, corrosive or poisonous agents. Others have been developed to facilitate the grasping of objects by extending the effective lengths of fingers. Garrett-Roe in U.S. Pat. No. 5,749,097 (1998) described a protective apparatus consisting three sheaths tethered together for protecting two fingers and a thumb of the hand of a manicurist from solvents present during the natural discourse of the manicurist duties. Davis et. al. in U.S. Pat. No. 4,796,302 (1988) disclosed a multi-finger guard with two sheaths for protecting the fingers from impacts. Kim in U.S. Pat. No. 5,363,508 described a finger and palm guard for barbers and cosmetologists made up of a pair of tubular members or rings that accommodate the middle and index fingers of the user's hand. Attached to and extending from each of these members is a projection that extends over the palmar fascia in the region immediately adjacent the knuckles joining the metacarpals and the third phalanges of both the middle and index fingers. The finger and palm guard is designed to prevent a path for the transmission of various diseases. Sullivan et al. in U.S. Pat. No. 5,087,499 disclosed a puncture-resistant and medicinal treatment garment.

[0006] In addition to the possible transmission of disease by sharp implements such as needles an surgical knifes, the ecology of infection is complex and involves interactions with climate, food and water supply, arthropod vectors, animal contacts, contact with objects handled by carriers of infectious diseases. In public facilities, such as restrooms it is the contact of the hands with objects that are touched or grasped by many users that results in the spread of infectious disease. The washing of hands by workers in convenient food places is therefore encouraged or otherwise mandated for the restaurant workers.

[0007] It is an object of this invention to provide a protector for the preferred working hand from germs and other infectious agents resulting from exposure to contaminated surfaces during normal activities. A second object of this invention is to provide a multiple finger contamination protector that will receive without assistance the thumb and a multiplicity of adjacent fingers of a working hand. A still further objective of this invention is to provide a palm and finger protector, which is contact-coated with fungicide and disinfectant agents, that prevent the vectoring of a fungi and a virus to the hand of a wearer. Other objects of this invention will become apparent during a reading of the detailed description of the invention.

SUMMARY OF THE INVENTION

[0008] An apparatus for protecting the operable part of a working hand comprises multiple finger sleeves, a palm shield, and a sheath for receiving the hand protecting apparatus. The sleeves being composed of hydrophobic polymeric or other materials coated or otherwise laden with disinfecting or pharmaceutical agents for destroying disease causing virus inter alia. The hand protector being designed to be attached separately or in a sheath in a non-obtrusive position on the users body such that only the hand to be protected is required to employ the hand protector for use.

DETAILED LIST OF FIGURES

[0009]FIG. 1 is a plan view of the apparatus of this invention shown as it would be deployed on the hand of a user.

[0010]FIG. 2 is a side view of the device of this invention deployed on the belt of a user.

[0011]FIG. 3 shows a second embodiment of the device of this invention complete with a receiving sheath and mounted on the belt of a user.

DETAILED DESCRIPTION OF THE INVENTION

[0012] Referring now to the figures and more particularly to FIG. 1, a sketch according to one embodiment of the palm and finger protector of the present invention as referenced by the numeral 2. The palm and finger protector referenced by the numeral 2 has palm apron 14 which is attached to the finger sleeves 8, 6, and 4 proximate their first ends using first terminal edge 15 a as shown in FIGS. 1 and 2. Throughout this application, the palm and finger protector may be referred to interchangeably via the phrase protective shield. The first face 16 of apron 14 is for contacting surfaces while the second face 17 contacts the users' palm. In FIGS. 1 and 2, the fingers sleeves 4 through 8 are attached to the apron via adhesive 10 (not shown in FIG. 1). It should be understood, however, that the fingers and apron could have been made in one integral unit. Also, they could have been joined by sewing the finger sleeves to the first terminal edge of the apron. The finger sleeves 8, 6 and 4 are design to receive the thumb, index and middle fingers at their open first ends 5, 7 and 9 of FIG. 2, respectively. When employed on a hand, the sleeves 4 through 8 and the first face 16 of the apron prevents the physical contact between the palm and fingers with surfaces in public use. The palm apron and finger sleeves of the device of this invention were made of plastic. However, even though the initial finger and palm protectors were made of plastic, they could just as well been made of rubber, organic or other polymeric materials. They could have also been made of a combination of the aforementioned materials. Returning to the protective shield of this invention, the closed distal ends of finger sleeves 8, 6 and 4 are set at linear distances from their open first ends that substantially parallels the average relative differences in the lengths of fingers of adults. Likewise, the closed distal ends of finger sleeves 8, 6 and 4 are set at linear distances from their open first ends that substantially parallels the average relative differences in the lengths of fingers of children. The open first ends 5, 7 and 9 are defined by rings 11 a, 11 b, 11 c which are embedded in plastic finger sleeves 8, 6 and 4 (see FIGS. 1 and 2) near the open first ends of the sleeves 8, 6, and 4. Rings 12, which are not connected to sleeves, serve to help hold the apron 14—second face in good contact with the surface of the palm of a hand. When the protective shield is mounted on the hand, phalanges 3 are inserted through rings 12. The inclination of the plastic rings 11 a, 11 b and 11 c is set such that the plastic rings at the open first ends 5, 7 and 9 are displaced linearly in a manner substantially identical to the relative position of the heel of the thumb to the knuckle of the index and middle finger. The angle of the plane containing the thumb ring 11 a being essentially at a right angle relative to the plane containing the rings 11 b and 11 c for the index and middle fingers, respectively. Rings 11 a through 11 c provide for easy insertion of the fingers of the users. The outer surface 18 of the finger sleeves 8, 6 and 4 and that of palm apron 14 are coated with a disinfectant or a fungicide (not shown in the FIG. 1). The disinfectant could be any of a number of chemicals anti disease and viral destructive agents. For example, any disinfecting and pharmaceutical agents that are compatible with plastics Furthermore any known conventional means of coating the various types of disinfecting and pharmaceutical agents on plastics may be used. Depending whether or not the palm and finger protector is a disposal unit, the manner and type of disinfectant or pharmaceutical agent will be chosen accordingly. The disinfecting agent and the fungicide can be applied with commercially available bonding agent for coating or binding active elements to a surface. The disinfectant and or fungicide can also be immersed in the fabric or material of construction of the protective shield. Throughout this specification the inventors have described a palm and finger protector that make use of a disinfectant inter alia added to its surface or immersed in its material of construction. However, a disposable palm and finger protector could provide a barrier to viruses and infectious disease transmission with and without the conjunctive use of a disinfectant or chemical agent. The hand shields of FIGS. 1 and 2 are shown attached to belt 24 of a user in FIG. 2. It could, however, be kept for ready use and safekeeping in an independent container wherefrom it is removed only when needed. In the case of disposable shields, a plurality of shields may be housed in a single container

[0013]FIG. 2 shows the palm and finger protector of this invention, as it could be stored on a user. The palm and finger protector could be suspended in a front or rear pocket or the side belt area 22 of a skirt, dress or pants. . In any case, the second edge 23 of apron 14 (FIGS. 1 and 2) maybe attached to a wear's belt as shown in FIG. 2 as by mating hoop and loop fabrics fasteners 26 a and 26 b, respectively. Loop 26 a may be mechanically attached to a host belt or garment while loop 26 b is attached to the first surface 16 of apron 14 near its second edge 23. As mentioned previously, both apron 14 and finger sleeves 8, 6 and 4 were composed of plastic. However, any type of fiber, whether they are the high strength polymeric type, conventional fabrics or combinations of both, may be utilized to fabricate the apparatus of this invention. A wide variety of materials could be used in manufacturing the finger and palm protector, depending on whether it was desired to have the protector to be reusable or disposable. Various types of plastics, metal, leather, or combinations thereof are contemplated. The use of fiber construction can be used to enhance the absorption of the disinfectants or pharmaceutical agents to increase the effective lifetime of the finger and palm protector. For example a, 10% solution of 1-ethenyl-2-pyrrolidinone homopolymer with iodine and 1-vinyl-2-pyrrolidinone polymers in an iodine complex would make an adequate disinfectant. The disinfectant could be an integral part of the polymeric materials.

[0014] A second embodiment of the device of this invention is shown in FIG. 3. The second embodiment of FIG. 3 shows absorber 28 as it is disposed in the interior of sheath 30 and palm and finger protector 2′ as it would be positioned during non use within sheath 30. Sheath 30 is composed of a liquid impervious material having a first part 31 and a second part 33 that are mechanically held together in non leaking contact as by adhesive (not shown in FIG. 3) or by stitching (not shown in FIG. 3) so as to form pocket 35. Parts 31 and 33 each have first and second surfaces. Absorber 28 is attached to the entire second face of part 31 and a substantially portion of the first surface of part 33. Hoop fastener 32 a is attached to the second surface of part 33 at its first end 34. The mating loop fastener 32 b is as by adhesive or other mechanical methods to belt 24′. The sheath 30 is thereby attached to the belt 24′ of the user. The nook and loop fastener 26 a′ and 26 b′ function as described previously. The difference being that loop 26 b′ is attached by adhesive to the second surface of part 33. It should be clear that the loop fastener 32 b could have been attached at other positions on the body to an article of clothing. Absorber 28, which is impregnate with disinfectant and pharmaceutical agents which are designed to coat the grasping surfaces of the fingers sleeves 8′, 6′, and 4′ (not shown in FIG. 3) and the first face 16 (not shown in FIG. 3) of apron 14 such that the effective disease and virus fighting capability of the protector is rejuvenated each time it is placed in sheath 30. The absorber 28 is encased over substantially the full inner surface of sheath 30. Together the protective shield 2 and sheath 30 forms an assembly that rejuvenates the active disease and virus fighting strength of the system after each use. The disinfectant and pharmaceutical agents maybe added to the absorber when need via a standard commercial container.

[0015] The use and function of the apparatus of this invention will now be discussed. In this case, the user, utilizing the apparatus of the first embodiment, insert the thumb index and middle fingers into the sleeves and breaks the bonding of loop 26 b to hook 26 a. The palm and finger protector 2 is now ready for use. The user can now grasp a surface without fear of exposure to dangerous viruses and disease.

[0016] The purpose and design of the device of this invention have been discussed in clear detail that would make clear the claimed invention. The invention is susceptible to variations and modifications from the embodiments, materials and methods of fabrication described herein. For example the finger sheaths may include all the fingers of the grasping hand. Likewise they could be made of highly absorbent paper fibrous materials.

[0017] Several different variations and or modifications of the present invention are possible from the embodiments and method of fabrication described above. For example, the number of sleeves may be changed to include more or fewer digits. Further, the sleeves could be replaced with single sleeve that encompass the full hand. Additionally, the size and shape of the apron may be changed. Finally, the user need not carry the protective shield on his/her person. The protective shield(s) may be transported in a separate container. In view of these facts, it should be understood that the present invention is limited only by the scope of the claims presented below. 

We claim:
 1. A protective shield for preventing the transfer of disease and viruses to the palm and digits of the working hand of an individual, comprising: a plurality of sleeves whose first ends are open and whose second distal ends are closed; a palmar shield of finite extent having first and second surfaces and first and second edges; finger insertion enabling means mounted in said first ends of said sleeves; retaining means cooperating between the host and the protective shield for maintaining said protective shield within the insertable reach of the hand of a user.
 2. The protective shield of claim 1, wherein said retaining means comprises hook and loop fasteners attached to an object on the user and the second edge of the palmar shield.
 3. The protective shield of claim 1, wherein said finger insertion enabling means is a plurality of rings mounted one each in said first end of each of the plurality of sleeves.
 4. The protective shield of claim 1, wherein said retaining means comprises hook and loop fasteners for attaching said protective shield to an article of clothing of the user and to the apron of the protective shield.
 5. The protective shield of claim 1, wherein said retaining means is a portable container.
 6. A protective shield for preventing the transfer of disease and viruses to the palm and digits of the working hand of an individual, comprising: a plurality of sleeves whose first ends are open as by rings mounted in said first ends of said sleeves and whose second distal ends are closed; a palmar shield of finite extent having first and second surfaces and first and second edges; means cooperating with said sleeves and said palmar shield for counteracting the transfer of active viruses or other infectious agents from a public surface to the palm and fingers of a hand; and, retaining means cooperating between the host and the protective shield for maintaining said protective shield within the insertable reach of the hand of a user.
 7. The protective shield of claim 6, wherein said means cooperating with said sleeves and said palmar shield for counteracting the transfer of active viruses or other infectious agents from a public surface to the palm and fingers of a hand comprises disinfectants, fungicides in cooperation with a binding agent that allows one to coat the active surfaces of the protective shield.
 8. The protective shield of claim 6, wherein said means cooperating with said sleeves and said palmar shield for counteracting the transfer of active viruses or other infectious agents from a public surface to the palm and fingers of a hand comprises disinfectants, fungicides in cooperation with a binding agent immersed in the material of the palmar shield and sleeves.
 9. A apparatus for preventing the transfer of disease and viruses to the hands of an individual comprising: a sheath with an absorber mounted in the interior of said sheath with said absorber being substantially impregnated with a contact transferable decontaminator; a palm and finger protector having an apron contiguous with a multiplicity of sleeves connected to said apron which is inserted and withdrawn with rubbing contact with said absorber to facilitate the transfer the decontaminants to the working surfaces of the palm and finger protector; attaching means connected to the apron and to the sheath for securing and palm and finger protector in the sheath and for connecting the sheath to an element on the body for securing said apparatus during non-use.
 10. The apparatus of claim 9, wherein the decontaminant is a liquid.
 11. The apparatus of claim 9, wherein the decontaminator is a powder.
 12. The apparatus of claim 9, wherein said attaching means consist of hook and loop fasteners.
 13. The protective shield of claim 1, wherein the number of sleeves equal the number of fingers.
 14. The protective shield of claim 1, wherein a single sleeves is used to cover multiple fingers in addition to an independent sleeve for the thumb.
 15. The protective shield of claim 5, wherein the protective shields have a limited lifetime.
 16. The protective shield of claim 6, wherein said retaining means is a portable container.
 17. The protective shield of claim 16, wherein the protective shields are used only once. 